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Laser speckle contrast imaging device and laser speckle contrast imaging method for realizing deep tissue detection

A laser speckle and imaging device technology, applied in the field of optical imaging, can solve problems such as mutual influence of information, inability to accurately detect tissue, etc., achieve broad application prospects, improve the contrast and signal-to-noise ratio of speckle patterns in deep tissue, and improve structure simple effect

Pending Publication Date: 2020-04-03
UNIV OF SCI & TECH OF CHINA
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  • Abstract
  • Description
  • Claims
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Problems solved by technology

When a lens is used to collect scattered light, the light from different depths of the tissue cannot be distinguished, resulting in the mutual influence of information at different depth levels, so it can only measure the shallow surface of the tissue, but cannot accurately detect deeper tissues

Method used

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  • Laser speckle contrast imaging device and laser speckle contrast imaging method for realizing deep tissue detection
  • Laser speckle contrast imaging device and laser speckle contrast imaging method for realizing deep tissue detection
  • Laser speckle contrast imaging device and laser speckle contrast imaging method for realizing deep tissue detection

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Embodiment

[0036] figure 1 A schematic diagram of a laser speckle contrast imaging device for deep tissue detection provided by an embodiment of the present invention. Such as figure 1 As shown, it mainly includes: a laser light source 01, which is used to emit a laser beam and irradiate the sample to be tested 05; a beam expander 02, which is used to expand the irradiation area of ​​the laser and make the laser irradiation more uniform; a polarizer 03 , used to change the passing light into linearly polarized light; the half mirror 04 is used to reflect the light emitted by the laser light source 01 and transmit the backscattered light of the sample to be tested 05; the sample to be tested 05 is used by 1 The mixed solution of % agarose and 2% cream is used to simulate raw tissue fluid, and the capillaries injected with 10% whipped cream dilution are used to simulate blood vessels at different depths in the tissue; The transmission direction of the polarizer 03 is vertical, and is use...

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Abstract

The invention discloses a laser speckle contrast imaging device and method for realizing deep tissue detection, and the device comprises a laser light source which is used for irradiating a to-be-detected sample; a beam expander which is used for expanding an irradiation area of laser and making irradiation more uniform; a polarizer which is a linear polarizer; to-be-detected samples which are biological tissues, scattering media, turbid liquid and the like; a semi-transmitting and semi-reflecting mirror which is used for reflecting the light emitted by a laser light source and transmitting the back-scattered light of the to-be-detected samples; a polarization analyzer which is a linear polaroid, the vibration transmission direction of the polarization analyzer being perpendicular to the vibration transmission direction of the polarizer, and the polarization analyzer being used for filtering photons scattered and depolarized from the sample to be detected; an objective lens; a relay lens; a light field camera which is used for collecting and imaging the scattered light to realize depth-of-field expansion of the image. According to the technical scheme, light scattered on the surface and the shallow surface of tissues can be filtered out, the influence of mutual superposition of information of light from different depth levels of the tissues on imaging is eliminated, the contrast ratio degree and the signal-to-noise ratio of a speckle image of the tissue are improved, and deep tissue detection is achieved.

Description

technical field [0001] The invention relates to the field of optical imaging, in particular to a laser speckle contrast imaging device and method for realizing deep tissue detection. Background technique [0002] When coherent light interacts with a random medium, the sensor receives light scattered from different locations in the medium, resulting in a random distribution with destructive or constructive interference, which is laser speckle. The movement of scattering particles in a random medium will cause the phase shift of scattered light, which will cause temporal fluctuations in the speckle pattern. By analyzing this fluctuation, the motion information of the scattering particles can be obtained, and the motion speed of the particles can be characterized by the speckle contrast. This is the working principle of laser speckle contrast imaging technology. [0003] Since the laser speckle contrast imaging technology was proposed in the 1990s, it has been used in cerebra...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N21/49
CPCG01N21/49G01N2021/4792
Inventor 吴水梅王安廷马凤华明海
Owner UNIV OF SCI & TECH OF CHINA
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